JPH04107206U - image fiber connector - Google Patents

Abstract

(57) [Summary] [Purpose] To facilitate the adjustment of the spacing between fiber end faces in order to prevent moiré and minimize image blur in an image fiber end face butting type connector. [Structure] A spacer of an appropriate length was placed between the opposing end faces of each ferrule attached to the tip of the fiberscope to be connected. Furthermore, the length of the connector body is divided into two parts, and a spacer is connected between the two parts by screw connection, so that the length of the connector body can be adjusted and fixed. [Effect] By simply selecting the appropriate length of the spacer between the ferrule end faces and adjusting the length of the connector body once, the ferrule end face Proper spacing between the two can be obtained.

Description

[Detailed explanation of the idea]

0001

[Industrial application field]

This idea is useful for image fiber connectors, especially for the end face of the fiber to be connected. You can easily adjust the distance between images to avoid moiré and minimize image blur. Regarding image fiber connectors that can be used.

0002

[Conventional technology]

Fiberscopes using quartz-based image fibers are suitable for high temperatures, high pressures, radiation, etc. They are often used in harsh environments, are very expensive, and have little flexibility. Because it is difficult to handle, even though the wiring distance is short, it cannot be used under harsh conditions. Maintainability and economy are improved by making only the installed parts replaceable as consumables. I try to make it possible.

0003 For connection of image fiber to make it replaceable as above, connection Insert a lens between the opposing surfaces of two ferrules attached to the end of the image fiber. A lens-type connector incorporating a lens system and the end faces of two ferrules facing each other. There is an end face butt type connector in which the two ends are butted together.

0004 A lens-type connector transmits the image of the output end of one image fiber through a lens. The image is formed on the end face of the other image fiber, which connects the Although it is possible to transmit a clear image through the It is difficult to mold the lens type, and the lens type is compared to the fiber end face butt type. Generally, they are expensive. Distributed refractive index rod lens as a lens type There is also a lens that uses a spherical lens, but this can be built into a smaller size than one that uses a spherical lens. However, due to lens aberrations, the sharpness of the image may deteriorate somewhat, and heat resistance Sexuality also decreases.

[0005] On the other hand, with end-face-butting type, compared to lens type, it is possible to pass through the connection part Although the transmitted image quality will be somewhat inferior, it can be made cheaper and smaller. can.

[0006]

[Problem that the idea aims to solve]

Image fiber scopes have a large number of pixels, and have a larger number of pixels than ordinary optical fibers. Because the cross-sectional area is extremely large, make sure to avoid moiré when making end-to-end butt connections. , and to minimize the blurring of the transmitted image, the image fiber It is necessary to provide a distance between the end faces expressed by the following formula.

[Math 1] D: Light-receiving range d: Pixel spacing t: Distance between end faces n _g : Refractive index of material between end faces n ₁ : Refractive index of core Δ: Difference in relative refractive index between core and cladding However, the tolerance of the interval is 1~ Since the thickness is about 2 μm, accurate adjustment during connection is difficult, which makes handling difficult during connection work.

[0007]

[Means to solve the problem]

This idea is based on the images to be butted in the above-mentioned connection by end-face butting. The present invention provides a connector that allows easy adjustment of the spacing between the end faces of medium-sized fibers. The first image fiber connector of this invention is the image fiber connector to be connected. Between the end faces of the ferrule into which the fiber will be inserted, the optimal length for the fiber. The second image fiber of this invention has a connector. A spacer with a ferrule through hole between each half divided into two in the longitudinal direction of the main body. The above halves are screwed to both ends of this spacer, and a rotation stopper is installed between the screw connections. It has been established.

[0008]

[Effect]

In the first of these inventions, the ends of the fibers to be connected are placed between the end faces of the ferrule. By providing a spacer with a thickness equal to the optimum clearance between the surfaces, By aligning the ferrule end faces with each other, the optimum clearance between the fibers is automatically established. A connection with .

[0009] In addition, in another version of this invention, the connector body is divided into two in the longitudinal direction. By providing a spacer between the halves and connecting each half with screws, the connector main The length of the body is expanded and contracted, and the body is inserted and engaged from both sides between the end faces of the ferrule. The distance can be adjusted by stopping the screw rotation between the screw connections. The specified interval is fixed.

0010

【Example】

Hereinafter, embodiments of this invention will be described with reference to the drawings. Figures 1 and 2 are also shows an example of the image fiber connector of this invention, first in Figure 1. 1, 1 is a fiberscope to be connected, and an image file is attached at each end of the fiberscope. Iba 2 is being meddled with. Reference numeral 11 indicates the above-mentioned fiber scope 1 to be connected. , 1, the ferrule is attached to each tip of the The fiberscope has through holes 12 and 13 through which the image fiber 2 is inserted. and a flange 14 having a surface perpendicular to the longitudinal direction on the outer periphery at an intermediate position in the longitudinal direction. It has the following. In this drawing, image fibers are inserted into the through holes 12 and 13. A state is shown in which fiberscope 1 with 2 exposed is inserted. The end face of the fiber 2 and the end face of the ferrule 11 are flush with each other. Code 15 is Connect from the flange 14 of the ferrule 11 along its central axis. Also provided are through holes 16 into which the distal end portions are inserted from both sides. sign No. 17 is a ferrule inserted from both sides of the through hole 16 of the connector body 15. A spacer provided between opposite end faces of 11, along its central axis, a ferrule A through hole having a diameter at least larger than the diameter of the through hole 13 of the image fiber 2 of No. 11. 18 are provided.

[0011] The length of this spacer 17 is determined by the pixel spacing of the image fiber 2 to be connected and N The length is determined by A, and this spacer is between the end faces of the ferrule 11. 17 and butt them together, the distance between the end faces, that is, the image file to be connected The distance between the end faces of the bars should be such that moiré does not appear and blurring of the transmitted image is minimized. It will be the best possible one.

0012 Reference numeral 19 is screwed to the connector body 15, and the ferrule 11 is spaced apart from the connector body 15. It is a nut that is pressed against the child 17, and the ferrule 11 penetrates on one end side. It has a bottom part 21 with a hole, and the other end is screwed to the outer peripheral surface on both sides of the connector body. There are 22 totals. Reference numeral 23 indicates the flange 14 of the ferrule 11 and the nut 1 A compression spring provided between the bottom part 21 of 9 and the above-mentioned screw connection 22. The movement of the bottom 21 of the nut 19 pushes it against the flange 14 via the compression spring 23. Apply pressure to firmly press the end face of the ferrule 11 against the spacer 17, and then Can be matched. In this way, the image fiber connector 10 of this invention is assembled. The connecting portion of the fiberscope 1 is configured.

[0013] Next, see Figure 2 for an example of another image fiber connector of this invention. I will refer to and explain. Codes in the diagram that are the same as those indicated in Figure 1 are the same as those indicated in Figure 1. shows the part. The fiberscope 1 to which the image fiber 2 is inserted is A through hole 12 of a ferrule 11 having a flange 14 on the outer periphery with a surface perpendicular to the longitudinal direction. , 13, the end face of the fiber 2 is flush with the end face of the ferrule 11. ing. Reference numeral 24 is a connector body, which is divided into two halves 24 in the longitudinal direction. 1, 241, and each half 241 has a through hole 2 of the ferrule 11. 5 and an engagement surface 26 that engages with the front surface of the flange 14. sign 27 is a space provided between the opposing halves 241 of the connector main body 24; a through hole that is a spacer and has an inner diameter at least larger than the outer diameter of the ferrule 11; 28, and is screwed 29 to the outer peripheral surface of the opposite end of each half body 241. By doing so, the length of the connector main body 24 can be adjusted. code 3 0 is a rotation stopper screw screwed through the circumferential wall of the spacer 27. By pushing the screw 30 into the screw connection 29, the connector body 2 The adjusted length of 4 is fixed. Reference numeral 19 indicates each half 24 of the connector body 24. 1 to engage the flange 14 of the ferrule 11 with each half 241. A nut that applies pressure by contacting the surface 26, and has a through hole for the ferrule 11 on one end side. The bottom part 21 is provided with a screw connection 22 on the outer peripheral surface of each half body 241 on the other end side. It is. Reference numeral 23 indicates the flange 14 of the ferrule 11 and the bottom of the nut 19. A compression spring provided between the nut 19 and the threaded connection 22 By moving in the longitudinal direction, pressure is applied to the flange 14 via the compression spring 23, Firmly press the surface of the flange 14 against the engagement surface 26 of the half body 241 . In this way, the image fiber connector 30 of this invention is assembled, and the image fiber connector 30 of this invention is assembled. The connection part of the bus scope 1 is configured.

[0014] At this time, the distance created between the end faces of the facing ferrules 11 is determined by the set screw 3. 0 and rotated the spacer 27 to obtain the optimum spacing. The length of the connector body 24 is fixed by tightening the fixing screw 30. in this case , the screw directions of the screw connections 29 at both ends of each half body 241 and the spacer 27 are in opposite directions. Needless to say, keep it as such. Note that this is one example of the adjustment method, and the above The direction of the screws of the screw connections 29 on both ends of the can be adjusted even if they are kept the same. Wear.

[0015]

[Effect of the invention] According to the image fiber connector of this invention, by providing a spacer between the end faces of the opposed ferrules, the length of the spacer is
If you apply a length determined by the pixel spacing and NA of the image fiber to be connected, even if you remove the fiberscope on one side of the connection for replacement and install a new fiberscope, you can simply attach the fiberscope to its tip. Simply insert the prepared ferrule until it hits the spacer and tighten the nut to the connector body, and you can find the appropriate spacing that will eliminate moiré and minimize image blur without the need for any spacing adjustment. can get. Note that the same applies not only to replacing one image fiber but also to replacing both image fibers. 0
[016] According to another image fiber connector of this invention, a spacer is provided between each half of the connector body divided into two halves in the longitudinal direction, and the spacer is screwed to the halves, and the screw connection is rotated. If the length of the connector body is changed, the distance between the end faces of the opposing ferrules is determined by abutting the flange of the ferrule against this, and when this distance is appropriate, the screw connection is fixed. Then, even if one or both fiberscopes are replaced, no adjustments are required any longer and a connection with the adjusted spacing is always obtained.

[Brief explanation of drawings]

FIG. 1 is a longitudinal cross-sectional view showing the structure of an embodiment of the image fiber connector of this invention.

[Figure 2] Another image fiber connector of this invention
FIG. 3 is a vertical cross-sectional view showing the structure of two embodiments.

[Explanation of symbols]

1 Fiber scope 2 Image fiber 10 Image fiber connector 11 Ferrule 12 Through hole 13 Through hole 14 Flange 15 Connector body 16 Through hole 17 Spacer 18 Through hole 19 Nut 20 Image fiber connector 21 Bottom 22 Screw connection 23 Compression spring 24 Connector body 241 half body 25 Through hole 26 Engagement surface 27 Spacer 28 Through hole 29 Screw connection 30 Set screw

──────────────────────────────────────────────── ─── Continuation of front page (72) Creator Kazuo Sanada 1440 Rokusaki, Sakura City, Chiba Prefecture Fujikura Electric Wire Co., Ltd. Inside the company's Sakura factory

Claims (2)

[Scope of utility model registration request] 1. A ferrule having a through hole along the central axis into which the end of the image fiber to be connected is inserted, and a flange having a surface perpendicular to the longitudinal direction on the outer periphery at an intermediate position in the longitudinal direction. , a connector body having through holes into which ferrules on the tip side of the flange are inserted from both sides along the central axis, and a bottom portion provided with the through holes for the ferrules; An image fiber connector comprising a nut that is screwed to the outer peripheral surface of each end and that moves the flange by movement of the bottom part due to the screw connection, and the ferrule is inserted into the through hole of the connector body from both sides and faces the ferrule. An image fiber connector characterized in that a spacer is provided between the end faces and has a through hole that is at least larger than the through hole of the fiber in the ferrule. 2. A ferrule having a through hole along the central axis into which the end of the image fiber to be connected is inserted, and a flange having a surface perpendicular to the longitudinal direction on the outer periphery at an intermediate position in the longitudinal direction; , a connector body having through holes into which ferrules on the tip side of the flange are inserted from both sides along the central axis, and a bottom portion provided with the through holes for the ferrules; In an image fiber connector consisting of a nut that is screwed to the outer peripheral surface of both ends and that moves the flange by movement of the bottom part due to the screw connection, the above-mentioned A spacer is provided that has a through hole with an inner diameter at least larger than the outer diameter of the ferrule and is screwed to the outer circumferential surface of the opposite end of the half body, and a screw rotation stopper is provided between the screwed connections. An image fiber connector characterized by: